Heading gas injection system (hgis) direct injection system

ABSTRACT

The invention relates to a heading gas injection system (HIGIS) direct injection system. The invention makes it possible to atomize fuel mixtures and fuels of all types and to directly inject them into the combustion chamber of a mixture-compressing, spark-ignition internal combustion engine of all designs. This is achieved by means of a heating element ( 10 ), a fuel injection nozzle ( 1 ) a temperature probe ( 5 ), electrical heating resistors (diodes) ( 2 ), an electromagnetic valve ( 3 ) and a pressure gauge ( 14 ). The control unit ( 8 ) is provided for controlling these individual components. This control unit ( 8 ) also has the task of ensuring that the inlet valve ( 4 ), with the flow meter ( 6 ), ensures an optimal pollutant-free and low-pollutant operation. A pollutant-free operation of an internal combustion engine can be ensured when using methanol, ethanol, water mixture, hereby signifying a zero pollutant emission.

Device for gasification of a water-fuel mixture designed for combustion engines with an injection system and an integrated combustion chamber direct injection system.

This invention is a device, which enables the gasification of a water-fuel mixture and a direct injection into the combustion chamber of a combustion engine of every kind.

This device consists of a closed heating element (10) with a fuel injection nozzle (1) and a electromagnetic valve (3), a temperature probe (5), a flow meter (6) and a inlet valve (4) which is controlled electronically by a magnet valve or mechanically by a servomotor (9). This device is regulated and controlled by a computerized control unit (8). This inventions task is the creation of a device capable of atomizing a water-fuel mixture and transporting it with high pressure directly into the combustion chamber of a spark-ignition internal combusting engine of all kinds like Ottomotor, Dieselmotor, Wankelmotor and turbines of every design. This task is solved by means of using a water-fuel mixture forming a solution, which goes though the injection nozzle (1) into the heating element (10), having electrical heating diodes (2) controlled by a so called control unit (8) also responsible for controlling and injecting. The within this heating element (10) atomized fuel now reaches the electromagnetic valve (3), which locks or unlocks the heating element (2) in direction of the inlet valve (4) of this device.

This inlet valve (4) is connected with the control unit (8) of the combustion engine and is perfectly coordinated resulting in optima inlet times, as well as inlet flow rates meaning an ideal operation of the spark-ignition internal combustion engine. This carried out by the flow meter (6) within the inlet channel (11). The inlet valve (4) can either be controlled by computer controlled electromagnetic valve (4), or computer controlled mechanically by a servomotor (9), which is responsible for opening and closing the inlet nozzle (12) which is part of the device within a fraction of seconds. The injection beam of the atomized fuel is pointed at the high performance spark plug (7) with an amplified ignition spark. Therefore an ideal usage of fuel as well as an optimal explosion and combustion is given. This means less fuel consumption, less pollutants and by use of water-fuel mixture, which might be methanol-water or ethanol-water originating from the biomass, the production of pollutants is not given any longer. This invention has the clear advantage, that every single water-fuel mixture and fuel can be atomized within this heating element (10), therefore guarantying an environment-friendly operation of a spark ignition internal combusting engine. As well as the consumption, the performance becomes optimized, which of course represents an important impact on the efficiency.

In the drawing shows one execute mode of the invention. The fuel mixture reaches the fuel injection nozzle (1) through the fuel distributor (13). By means of the fuel reaches the heating element (10). This heating element (10) is located within a closed chamber, which is equipped with electrical heating resistors (diodes) (2), equipped with a fuel injection nozzle (1), a electromagnetic valve (3) and a temperature probe (5) responsible for assuring, that the temperature is within the area of 200° and up to 1000° Celsius. With the control unit (8), which also has access to the Pressure gauge (14), the temperature and the pressure are controlled and regulated. The within this heating element (10) atomized fuel-mixture now reaches the chamber to the inlet channel (11), where the flow meter (6) is located by the electromagnetic valve (3). The computer controlled inlet valve (4) takes care for an optimal fuel amount due to controlled inlet times. This inlet amount is further controlled by the flow meter (6) in the inlet channel (11). The inlet valve (4) can be activated either by a computer controlled electromagnetic valve (3) or an also computer controlled servomotor (9). Through this inlet nozzle (12) the atomized fuel now reaches the combustion chamber, where the injection beam directly hits the spark plug (7). By directly injecting the atomized fuel, it is taken care, that the combustion of the mixture reaches a maximum of efficiency possible thanks the high performance spark plug (7). A new generation of engines is born. Without pollutants and ideal consumption with regards to power.

Legend:

-   1. fuel injection nozzle -   2. electrical heating resistors (diodes) -   3. electromagnetic valve -   4. inlet valve -   5. temperature probe -   6. flow meter -   7. high performance spark plug -   8. control unit -   9. servomotor -   10. heating element -   11. inlet channel -   12. inlet nozzle 

1. This HIGS direct injection system is a facility as well as a device for atomizing water-fuel mixtures with a direct combustion chamber injection system for mixture compressing: spark-ignition internal combustion engines of every kind, design however only through a fuel injection nozzle (1), the water-fuel mixture reaches the heating element (10), in which electrical heating resistors (diodes) (2) are let in, whose heating power is controlled and measured by a temperature probe (5), however a temperature of 200° up to 1000° Celsius is reached, the pressure gauge (14), the now atomized fuel-mixture, which now at this point goes through the electromagnetic valve (3) into the inlet channel (11), in which in turn the flow meter (6) is located, whose task is to care for an ideal consumption, in which the flow meter (6) is controlled by the control unit (8), which also controls the inlet valve (4), so that the atomized fuel now goes through the inlet nozzle (12) directly into the combustion chamber in form of a injection beam which is heading towards the high performance spark plug (7), this inlet nozzle (4) also can be activated mechanically by means of a servomotor (9), which is controlled from a control unit (8) and which is able to open and close this nozzle (4) within a fraction a second so that the fuel consumption is determined.
 2. Device according to claim 1, labeled thereby, so that the heating element (10) doesn't produce any integrated electrical heating resistors (diodes) (2), but these are located in the interior as shown in FIG. 3 of the drawing and a grid (Net) (2) is formed. The density of this electrical heating resistors (diodes) (2) depends on the requested as well as necessary heating performance.
 3. Device according to claim number 1, labeled thereby, that the device is coordinated in a way, so that the use of fuel of every kind without water is ensured. For that, the heating element (10) is regulated to reach temperatures beginning with 40° Celsius up to 200° Celsius. To handle this task, this element is controlled by use of a temperature probe (5) and a control unit (8).
 4. Device according to claim number 1, labeled thereby, that this device can consist of high-grad steel, steel, every kind of metal based alloys of light metal, including ceramic, as well as celizium.
 5. Device according to claim number 1, labeled thereby, that a direct gas pipe is placed within the inlet channel (11), ensuring that the operation can be continued without any further remodeling with natural gas and the for that required data are programmed into the control unit (8), by the flow meter (6), also the flow of gas can be controlled and through the inlet valve (4) a smooth operation of every conventional combustion engine of every design is guaranteed. 